Uncovering Universal Wave Fluctuations In a Scaled Ray-Chaotic Cavity With Remote Injection

The Random Coupling Model (RCM), introduced by Zheng, Antonsen and Ott, predicts the statistical properties of waves inside a ray-chaotic enclosure in the semi-classical regime by using Random Matrix Theory, combined with system-specific information. Experiments on single cavities are in general agr...

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Bibliographic Details
Published in:arXiv.org 2018-02
Main Authors: Xiao, Bo, Antonsen, Thomas M, Ott, Edward, Drikas, Zachary B, Jesus Gil Gil, Anlage, Steven M
Format: Article
Language:English
Subjects:
Aircraft components
Aircraft control
Holes
Matrix theory
Office buildings
Properties (attributes)
Variation
Online Access:Get full text
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Summary:The Random Coupling Model (RCM), introduced by Zheng, Antonsen and Ott, predicts the statistical properties of waves inside a ray-chaotic enclosure in the semi-classical regime by using Random Matrix Theory, combined with system-specific information. Experiments on single cavities are in general agreement with the predictions of the RCM. It is now desired to test the RCM on more complex structures, such as a cascade or network of coupled cavities, that represent realistic situations, but which are difficult to test due to the large size of the structures of interest. This paper presents a novel experimental setup that replaces a cubic-meter-scale microwave cavity with a miniaturized cavity, scaled down by a factor of 20 in each dimension, operated at a frequency scaled up by a factor of 20 and having wall conductivity appropriately scaled up by a factor of 20. We demonstrate experimentally that the miniaturized cavity maintains the statistical wave properties of the larger cavity. This scaled setup opens the opportunity to study wave properties in large structures such as the floor of an office building, a ship, or an aircraft, in a controlled laboratory setting.
ISSN:2331-8422
DOI:10.48550/arxiv.1802.10167